RROLEAAGENCYIIMPACTSSYSTEMSEEXPLORATIONSustainabilityBuildCapabilityScalePilotsPrepareDataGovernAIDriveAdoptionDriveROIRole RedesignUpskillingWorkflowsRedesign & ReskillPeople & CultureDiverse TeamEmployee AIHuman-Machine IntelligenceCareer PathsDigital HRAI LiteracyCentralised AISkillsMomentumCulture & ChangeBusiness CaseRemoving BarriersAlways-On ChangeAI-Ready CulturePurposeTransformation LeadershipCommunicationsEarly AdoptersAI StrategyMotivationStrategic VisionUrgencyPersonalised ChangeExperimentationAutomationSponsorshipStatus ChecksChange TriangleAbilityMaking It StickDeploy–Reshape–InventResource AllocationChange MeasurementPilotsOKRs & KPIsBusiness ImpactPerformanceUse-CasesAI MaturityShort-Term WinsRoadmapAssetsSequenced InvestmentsCapability-BuildingProcess MonetisationAI GovernanceOversightRisk & ComplianceIncident ReportingProhibited AITrustRisk ClassificationConformity AssessmentExplainabilityAI EthicsAdvisory CommitteeEthics DesignGovernanceRobustnessMonitoringAccountability EmbeddedSafetySustainabilityResponsible AIData PrivacyFairnessTransparencyAI PoliciesObligationsData StrategyData AccessibilityGenAIData DocumentationData GovernanceData QualityData ManagementData SharingData OwnershipData IntegrityEmbedded DataData ArchitectureData AssetsData FitnessCross-Functional CollaborationScaling AIModular ArchitectureMLOpsHyperautomationChange ImpactAgile ChangeDocumentationAI InventoryIntegrationAI EngineeringAI EcosystemsManaged ServicesManual Process LogsAI Model LifecycleReliabilitySecurityOperating ModelAgile OpsDistributed TechnologyScalable EnterpriseAI MaturityAwarenessBCG AI at ScaleBoomi ProcessDeloitteEU AI ActGartnerGoogleIBMKotterKPMGMcKinseyMITProsci
    Sustainability — AI transformation lever in the Future Positive Atlas

    GOVERN AI / GV-22

    Sustainability

    0.44Adaptability average

    Sustainability takes direct responsibility for the environmental footprint of AI across its lifecycle. KPMG frames it as actively managing the energy consumed during both model training and real-time inference, and integrating strict environmental criteria into AI procurement and design. Through carbon accounting for compute, renewable procurement for data centres, and optimisation of algorithmic and hardware efficiency, an organisation aligns its technological advancement with broader ecological goals.

    Potential across the 5 Future Positive Principles

    Self-Directed
    Agency-Centered
    Impact-Led
    System-Focused
    Evolution-Driven
    Industry Standard baseline
    Future Positive potential

    Source Frameworks